CN106102690B - Dental composition - Google Patents
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- CN106102690B CN106102690B CN201480071750.6A CN201480071750A CN106102690B CN 106102690 B CN106102690 B CN 106102690B CN 201480071750 A CN201480071750 A CN 201480071750A CN 106102690 B CN106102690 B CN 106102690B
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K6/00—Preparations for dentistry
- A61K6/60—Preparations for dentistry comprising organic or organo-metallic additives
- A61K6/62—Photochemical radical initiators
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Abstract
The present invention relates to a kind of photo-curable dental compositions, include: (a) one or more free radical polymerizable monomers, (b) in composition the lower formula (I) of 0.1 to 7.0 weight % of free radical polymerizable monomer total weight compound: R1R2R3X(CO)X’R4R5R6(I) wherein X and X ', can be identical or different, independently indicates Si or Ge, R1、R2、R3、R4、R5And R6, it can be identical or different, independently indicate the hydrocarbyl group with 1 to 20 carbon atom, thus R1、R2、R3、R4、R5And R6Middle any two hydrocarbyl group can bond together and and X connected to it, the part X ' or X (CO) X ' constitutes 3 to 12- circle heterocyclic ring ring together, thus the hydrocarbyl group or heterocyclic ring it is any can with-contain one or more ketone groups in addition to the ketone groups of the part X (CO) X ', or-by one or more be selected from halogen atom, cyano, the group of amino or hydroxyl replaces, with-in the case where hydrocarbyl group or heterocyclic ring contain alkylidene chain or alkenylene chain, one or more carbon atoms in the alkylidene chain or alkenylene chain can be by oxygen atom, sulphur atom, amide groups, ester group, urethane groups or NH group replace graininess.
Description
Invention field
The present invention relates to a kind of dental composition containing specific photoinitiator compound, the specific photoinitiator compounds
It can be used for the free radical polymerization that initiation includes the free radical polymerizable monomer in photo-curable dental composition.The present invention also relates to
And the photoinitiator is used to prepare the purposes of photo-curable dental composition.
Dental composition of the invention has the polymerization efficiency and curing rate improved, so that can improve cured tooth
The engineering properties of section's composition.
Background of invention
Dental Erosion is usually directed to the photo-curable dental composition of the resin containing free redical polymerization.Dental composition
Photocuring be related to when being exposed to visible light generate free radical photoinitiator system.Following two approach can usually be passed through
Any generate free radicals:
(1) for photoinitiator compound by energy absorption through being stimulated, the subsequent compound is decomposed into one or more certainly
By base (Norrish I type), or
(2) for photoinitiator compound through being stimulated, the photoinitiator compound of excitation passes through energy transfer or redox
Reaction interacts with second compound, so as to by any formation free radical of the compound (Norrish II type).
For photoinitiator, in order to can be used for dental composition, (it shows light radiation to free radical shape to quantum yield
At conversion ratio) must be high because limit to the absorption or shielding of light can be light-initiated for other components of the dental composition
The energy fluence that agent absorbs.Therefore, in the polymerization of typical dental composition, only it is expectable have 70% polymerizable groups turn
Rate, thus the mechanical strength of the polymerizable dental composition is lower than optimum value, and unreacted monomer can be from the tooth of polymerization
It is leached in section's composition.Leaching monomer may have adverse effect.In order to alleviate this problem, multifunctional single is usually used
Body, the monomer are more likely included in polymer network.
In addition, needing photoinitiator that there is highly dissoluble, thermal stability and stable storing when being incorporated to dental composition
Property.
Finally, passing through in view of dental composition usually contains (methyl) acrylate or (methyl) acrylamide monomer
The presence of oxygen inhibits radical UV curing.Oxygen inhibition is attributed to growth free radical and oxygen molecule fast reaction to generate to carbon-
Carbon unsaturated double-bond is in peroxy radical that is non-reacted and therefore not causing or be not involved in any photopolymerization reaction.Oxygen inhibition meeting
Lead to premature chain termination, and therefore will lead to incomplete photocuring.
Therefore, which has crucial effect to the quality of the dental material.Camphor in conjunction with tertiary amine
Quinone is commonly used as photoinitiator system.But there are amine may cause gained photocuring in the composition containing acrylate
Yellowing in composition generates unacceptable smell, and softens cured composition due to chain transfer reaction, usually
It needs using stabilizer.In addition, generating the worry of toxicity using aromatic amine such as ethyl 4-dimethylaminobenzoate.
Furthermore, it is also desirable to activate the photoinitiator system light have long wavelength to avoid in patient oral cavity in the tooth
Soft tissue is destroyed in section's composition polymerization process.Contain therefore, it is necessary to photoinitiator system and effectively absorbs 400 to 800 nanometers
The chromophore of the light of required wavelength in range.But to increase this light-initiated for the raising of the absorption coefficient of photoinitiator system
The coloring of agent system thereby increases the coloring of the dental composition.Therefore, which must be effective in the course of the polymerization process
Ground destroys so that the coloring of initiator system disappears in the dental composition of polymerization.The destruction of chromophore is also in polymerization process
It can be used for improving the cured depth of dental composition, because activation light is by being present in the polymer layer for covering unpolymerized layer
Photoinitiator and not by the dental composition unpolymerized layer cover.
N.Mozner et al., Dental Materials 24 (2008) 901-907 and Ganster, B et al. disclose benzene
Formyl germanium derivative is as the novel visible photoinitiator for being used for dental material.Benzoyltrimethyl germanium is proposed by can
Light-exposed irradiation is to crack.Main α-pyrolysis product is considered as benzoyl radical and germyl free radical.For first germanium
Alkyl diradical is as polymerization initiator and no evidence.On the contrary, benzoyl radical may cause the activity observed.Cause
This, activity of the germyl free radical in the polymerization reaction in dental composition is still unknown.
The Macromol.Rapid Commun.2010,31,473-478 of M.-A.Tehfe et al., which is disclosed, is being higher than 500
Bis- (the germyl ketone) of the lower sensitive I type photoinitiator system of nanometer.But do not disclose comprising granulated filler and/or
The dental composition or any composition of solvent.
Summary of the invention
Problem of the invention is to provide a kind of dental composition containing free radical polymerizable monomer, and the free redical is poly-
Closing monomer has improved polymerization efficiency, high curing rate and high storage stability, and will not cause coloring problem, so as to energy
Improve the mechanical strength of dental composition and the dental composition of polymerization to the adhesiveness of enamel and dentine.In addition, this
The problem of invention, is to provide the purposes that specific compound is used to prepare dental composition.
The present invention provides a kind of dental composition, includes:
(a) one or more free radical polymerizable monomers,
(b) chemical combination based on the lower formula (I) that free radical polymerizable monomer total weight in composition is 0.1 to 7.0 weight %
Object:
R1R2R3X(CO)X’R4R5R6
(I)
Wherein
X and X ', can be identical or different, independently indicates Si or Ge,
R1、R2、R3、R4、R5And R6, it can be identical or different, independently indicate the alkyl with 1 to 20 carbon atom
It rolls into a ball, thus R1、R2、R3、R4、R5And R6Middle any two hydrocarbyl group can bond together and and X, X connected to it ' or X (CO)
The part X ' constitutes 3 to 12- circle heterocyclic ring ring together,
Thus any of the hydrocarbyl group or heterocyclic ring can be with
Containing one or more ketone groups in addition to the ketone groups of the part X (CO) X ', or
Replaced by one or more groups selected from halogen atom, cyano, amino or hydroxyl, and
In the case where hydrocarbyl group or heterocyclic ring contain alkylidene chain or alkenylene chain, the alkylidene chain or alkenylene chain
In one or more carbon atoms can be replaced by oxygen atom, sulphur atom, amide groups, ester group, urethane groups or NH group, and
(c) granulated filler and/or solvent.
In addition, the compound that the present invention provides lower formula (I) is used to prepare the purposes of dental composition:
R1R2R3Ge(CO)GeR4R5R6
(I)
Wherein X, X ', R1、R2、R3、R4、R5And R6As hereinbefore defined.
The present invention is based on following understanding: the ketone compound of formula (I) of the invention provides improved polymerization efficiency, high solidification
Speed and high storage stability, and the yellowing problems of the dental composition containing free radical polymerizable monomer will not be caused.Cause
This, according to the present invention it is possible to be exposed to the radiation relatively great amount of dental composition of photocuring with reduction.Due to the photoinitiator
The high efficiency of compound, in the Light Curing of dental composition of the invention, the presence of oxygen or oxygen inhibition not will cause sternly
The damage of weight.Finally, due to which laser curing velocity is high in dental composition of the invention, which can colour or fill out
It fills, is penetrated with limiting light.
Detailed description of the invention
Fig. 1 shows photopolymerization situation of the HDDA in laminated material: (1) being free of photoinitiator, and (2) in 1.5 weights
In the presence of the DGK for measuring %;(light for filtering out λ > 400 nanometer) is irradiated with xenon lamp.
Fig. 2 shows photopolymerization situation of the TMPTA in laminated material: (1) DGK (2 weight %) in the presence of, and
(2) in the presence of DGK/ hexafluorophosphoric acid diphenyl iodine (the 2 weight % of weight %/2);Laser diode under 473 nanometers shines
Penetrate (100mW/cm2)。
Fig. 3 A shows the emission spectrum of blue-ray LED (SmartLite Focus-Dentsply).Fig. 3 B shows laser
The emission spectrum (such as under 532 nanometers) of diode.
Fig. 4 shows the light of BSK when the absorption spectrum of the BSK in tert-butyl benzene and SmartLite Focus irradiate
Decompose (40 seconds, 80 seconds, 120 seconds, irradiation in 160 seconds).
Fig. 5 show irradiation BSK solution (solvent=tert-butyl benzene) obtain ESR spectrum: test (curve above) and
Simulate (following curve) spectrum;SmartLite Focus irradiates (20 seconds).
Fig. 6 shows the photodegradation of BSK/DPI solution (solvent=tert-butyl benzene/acetonitrile);[DPI]=0.012M is used
SmartLite Focus irradiates (20 seconds, 40 seconds).
Fig. 7 shows the ESR spectrum that irradiation BSK/DPI solution (solvent=tert-butyl benzene) obtains: test (song above
Line) and simulation (following curve) spectrum;SmartLite Focus irradiates (20 seconds).
Fig. 8 shows the bleaching of BSK/DPI solution: (a) SmartLite Focus irradiation before and (b) SmartLite
After Focus irradiation.
Fig. 9 shows for different light initiation systems, photopolymerization situation of the BisGMA/TEGDMA in laminated material: In
Laser diode irradiation under blue led (SmartLite Focus) or 532 nanometers.
Detailed description of the invention
Term " polymerization " is related to a large amount of lesser molecules, and such as monomer combines to form biggish molecule by covalent bonding, i.e.,
Macromolecular or polymer.The monomer can be combined to form only linear macromolecular or they and can combine to form three-dimensional
Macromolecular, commonly referred to as cross-linked polymer.In the case where the more high conversion of polymerisable monomer, the amount of multifunctional monomer may
It reduces, or leaching problem can be mitigated.
Term " solidification " and " photocuring " refer to functional oligomers and monomer, or even synthesizing cross-linked poly- of polymer poly
Polymeric network.Solidification is the polymerization of unsaturated monomer or oligomer in the presence of a crosslinking agent.
Term " photocurable " and " curable " refer to dental composition ought for example with actinic radiation for example ultraviolet (UV), can
See or when infra-red radiation irradiates aggregates into the polymer network of crosslinking.
Term " free radical polymerizable monomer " refer to include can occur polymerization reaction there are one or more carbon-to-carbons
Any unsaturated material of double bond (ethylenically unsaturated group).The term covers unsaturated monomer, oligomer and crosslinking agent.The art
The singular of language is intended to include plural number.Oligomer and polyfunctional acrylic ester are the examples of free radical polymerizable monomer.
Term " quantum yield " is herein for describing the efficiency of photochemistry.More particularly, quantum yield is special
Determine the measurement that molecule absorbs the probability of light quantum during it interacts with photon.Term expression is each absorbed
The quantity of the photochemistry event of photon.
" actinic radiation " is any electromagnetic radiation that can generate photochemical effect, and can have at least 150 nanometers and
Highest and including 1250 nanometers and typically at least 300 nanometers and highest and including 750 nanometers of wavelength.
The present invention relates to a kind of dental compositions.It is compound that the dental composition can be dental adhesive composition, dentistry
Material, resin modified dental cement and fissure sealant.The dental composition can be solidified by the irradiation of actinic radiation.
The dental composition preferably can be the acid dental composition of the pH with 0.5 to 6.5, more preferable 1 to 4.
The dental composition contains one or more free radical polymerizable monomers.The free radical polymerizable monomer preferably can be with
It is that polymerizable N- replaces alkyl acrylic or acrylic acid amides monomer or (methyl) acrylate compounds.
Polymerizable N- replaces alkyl acrylic or acrylic acid amides monomer that can be preferably selected from and be characterized as one of following formula
Compound:
Wherein R10、R20And R30Independently indicate hydrogen atom or C1 to C8 alkyl group;A indicates bivalent substituted or unsubstituted
The organic residue with 1 to 10 carbon atom, thus the organic residue can contain 1 to 3 oxygen and/or nitrogen-atoms;Z table
Show the substituted or unsubstituted C1 of at least trivalent of saturation to C8 hydrocarbyl group, the substituted or unsubstituted ring of at least trivalent of saturation
Shape C3 is to C8 hydrocarbyl group, and n is at least 3.Preferably, free radical polymerizable monomer includes bisacrylamide such as N, N '-diethyl
Base -1,3- bisacrylamide base-propane (BADEP), 1,3- bisacrylamide base-propane (BAP), 1,3- bisacrylamide base -
2- ethyl-propane (BAPEN), N, N '-(2E)-but-2-ene -1,4- diallyl pair-[(N- propyl- 2- alkene -1) amide (BAABE)
And N, N- bis- (cyclopropyl acrylamido) propane (BCPBAP).
(methyl) acrylate compounds can be selected from methyl acrylate, methyl methacrylate, ethyl acrylate, methyl
Ethyl acrylate, propyl acrylate, propyl methacrylate, isopropyl acrylate, isopropyl methacrylate, acrylic acid 2- hydroxyl
Base ethyl ester, 2-hydroxyethyl methacrylate (HEMA), hydroxypropyl acrylate, hydroxy propyl methacrylate, acrylic acid tetrahydro furan
It mutters the methyl-prop of ester, tetrahydrofurfuryl methacrylate, glycidyl acrylate, glycidyl methacrylate, bisphenol-A
Olefin(e) acid 2-glycidyl ester (" bis-GMA "), mono- and di- glycerol acrylate, mono- and di- glyceral methacrylate, two
Acrylic acid glycol ester, ethylene glycol dimethacrylate, allyl methacrylate (wherein duplicate ethylene oxide unit
Quantity is 2 to 30 to differ), (wherein duplicate ethylene oxide unit quantity is not 2 to 30 not to poly(ethylene glycol) dimethacrylate
Deng especially diethylene glycol dimethacrylate (" TEGDMA ")), diacrylic acid pentyl diol ester, dimethacrylate it is new
Pentadiol ester, trimethylolpropane trimethacrylate, trimethylol-propane trimethacrylate, pentaerythrite and two Ji Wusi
Mono-, di-, tri-, and tetra- acrylate and methacrylate, the diacrylate 1,3 butylene glycol ester, dimethacrylate of alcohol
1,3 butylene glycol ester, diacrylate 1,4- butanediol ester, dimethacrylate 1,4- butanediol ester, diacrylate 1,6-HD
Ester, dimethacrylate 1,6-HD ester, two -2- methacryl 2-ethoxyethyl acetate of hexa-methylene diamino formic acid, trimethyl six
Two -2- methacryloyloxyethyl of ethylene carbamic acid, two -2- methylacryloyl oxygen of dimethyl benzene diamino acid
Ethyl ester, carbamic acid methylene-bis- -2- methylacryoyloxyethyl -4- cyclohexyl, two -2- methylacryoyloxyethyls-diformazan
Butylcyclohexane diurethane, carbamic acid methylene-bis- -2- methylacryoyloxyethyl -4- cyclohexyl, two -1- methyl -
2- methylacryoyloxyethyl-trimethyl-hexa-methylene diamino formic acid esters, two -1- methyl -2- methylacryoyloxyethyls -
Dimethyl benzene diurethane, two -1- methyl -2- methylacryoyloxyethyls-dimethyl cyclohexane diurethane, ammonia
Base formic acid methylene-bis- -1- methyl -2- methylacryoyloxyethyl -4- cyclohexyl, two -1- chloromethyl -2- methacryloxypropyls
Ethyl-hexa-methylene diamino formic acid esters, two -1- chloromethyl -2- methylacryoyloxyethyls-tri-methyl hexamethylene diamino
Formic acid esters, two -1- chloromethyl -2- methylacryoyloxyethyls-dimethyl benzene diurethane, two -1- chloromethyl -2- methyl
Acrylyl oxy-ethyl-dimethyl cyclohexane diurethane, carbamic acid methylene-bis- -2- methylacryoyloxyethyl -4-
Cyclohexyl, two -1- methyl -2- methylacryoyloxyethyls-hexa-methylene diamino formic acid esters, two -1- methyl -2- metering systems
Acyloxyethyl-tri-methyl hexamethylene diurethane, two -1- methyl -2- methylacryoyloxyethyls-dimethyl benzene diamino
Carbamate, two -1- methyl -2- methacryloxies-dimethyl cyclohexane diurethane, carbamic acid methylene -
Double -1- methyl -2- methylacryoyloxyethyl -4- cyclohexyls, two -1- chloromethyl -2- methylacryoyloxyethyls-hexa-methylene
Diurethane, two -1- chloromethyl -2- methylacryoyloxyethyls-tri-methyl hexamethylene diurethane, two -1-
Chloromethyl -2- methylacryoyloxyethyl-dimethyl benzene diurethane, two -1- chloromethyl -2- methacryloxypropyl second
Base-dimethyl cyclohexane diurethane, carbamic acid methylene-bis- -1- chloromethyl -2- methylacryoyloxyethyl 4- ring
Bis- (the 4- acryloyl-oxy phenyl) propane of bis- (4- methacryloxyphenyl) propane of hexyl ester, 2,2'-, 2,2', 2,2'- bis- [4
(2- hydroxy-3-methyl acryloyl-oxy-phenyl)] propane, bis- [4 (2- hydroxyl -3- acryloyl-oxy-phenyl) propane, 2,2'- of 2,2'-
Bis- (4- methacroyloxyethoxy phenyl) propane, 2,2'- bis- (4- acryloxy ethoxy phenyl) propane, 2,2'-
Bis- (4- methacryloxypropoxy phenyl) propane, 2,2'- bis- (4- acryloxy propoxyphenyl) propane, 2,2'-
Bis- (4- methacryloxy diethoxy phenyl) propane, 2,2'- bis- (4- acryloxy diethoxy phenyl) propane, 2,
Bis- [3 (4- the phenoxy group) -2- hydroxy propane -1- methacrylate] propane of 2'- and bis- [3 (4- the phenoxy group) -2- hydroxyls of 2,2'-
Propane -1- acrylate] propane can be mentioned that.Other suitable examples of polymerizable components are isopropenyl oxazoline, vinyl
Nitrogen lactone, vinyl pyrrolidone, styrene, divinylbenzene, urethane acrylate or methacrylate, propylene oxide
Acid esters or methacrylate and polyalcohol acrylate or methacrylate.
Preferably, polymerizable N- replaces alkyl acrylic or acrylic acid amides monomer or (methyl) acrylate compounds
Molecular weight at most 400, more preferably up to 300.
Preferably, which respectively contains one or two free redical polymerization group.
Preferably, free radical polymerizable monomer is 5 to 80 weight % to the proportion of entire dental composition.More preferably
Ground, the proportion are 10 to 60 weight %.
According to a preferred embodiment, dental composition of the invention includes the free redical polymerization with acidic-group
Monomer.
In addition, it is 0.1 that dental composition of the invention, which includes based on free radical polymerizable monomer total weight in the composition,
To the compound of the lower formula (I) of 7.0 weight %:
R1R2R3X(CO)X’R4R5R6
(I)
The compound of formula (I) can serve as I type photoinitiator, thus can be generated by the single photon that the compound absorbs
Two free radical R1R2R3X and X ' R4R5R6, the dental composition can be polymerize.Therefore, the quantum of the compound of formula (I)
Yield may be up to twice of the camphorquinone/amine initiators of equimolar amounts.
Preferably, it is less than 2.5 which, which contains based on free radical polymerizable monomer total weight in the composition,
The compound of the formula (I) of weight %, preferably 0.5 to 2.0 weight %.
In formula (I), X and X ' can be identical or different, independently indicate Si or Ge.
According to first embodiment, X and X ' are identical.Therefore, the compound of formula (I) is bis- (first silicon of lower formula (II)
Alkyl) ketone or lower formula (III) bis- (germyl) ketone:
R1R2R3Si(CO)SiR4R5R6
(II)
R1R2R3Ge(CO)GeR4R5R6
(III)
According to the second embodiment, according to the following formula (IV), X is Si and X ' is Ge:
R1R2R3Si(CO)GeR4R5R6
(IV)
In formula (I), (II), (III) and (IV), R1、R2、R3、R4、R5And R6Part can be identical or different, and independent
Ground is indicated with 1 to 20 carbon atom, preferably with the hydrocarbyl group of 2 to 8 carbon atoms and more preferable 2 to 6 carbon atoms.
The hydrocarbyl group can be alkyl group, group of naphthene base, cycloalkylalkyl group, aromatic alkyl group or aryl base
Group.
Alkyl group can be the C of linear chain or branched chain1-20Alkyl group, usually C1-8Alkyl group.C1-6Alkyl group
Example may include the linear or branched alkyl group group with 1 to 6 carbon atom, preferably 1 to 4 carbon atom, such as methyl,
Ethyl, n-propyl, isopropyl, normal-butyl, isobutyl group, sec-butyl, tert-butyl, n-pentyl, isopentyl and n-hexyl.
Group of naphthene base can be C3-20 group of naphthene base.The example of group of naphthene base may include having 3 to 14 carbon
Those of atom, such as cyclopropyl, cyclobutyl, cyclopenta and cyclohexyl.Cycloalkylalkyl group may include having 4 to 20
Those of carbon atom.
Cycloalkylalkyl group may include linear or branched alkyl group group with 1 to 6 carbon atom and have 3 to 14
The combination of the group of naphthene base of a carbon atom.The example of cycloalkyl-alkyl for example may include methylcyclopropyl groups, methyl-cyclobutyl,
Methylcyclopentyl, methylcyclohexyl, ethyl cyclopropyl, ethylcyclobutyl, ethylcyclopentyl, ethylcyclohexyl, propylcyclopropyl,
Propylcyclobutyl, propyl cyclopenta, propylcyclohexyl.
Aromatic alkyl group can be C7-20Aromatic alkyl group, usually with the linear or branched alkyl group of 1 to 6 carbon atom
The combination of group and the aryl group with 6 to 10 carbon atoms.The specific example of aromatic alkyl group is benzyl or phenethyl.
Aryl group may include the aryl group with 6 to 10 carbon atoms.The example of aryl group is phenyl and naphthalene
Base.Aryl group can contain 1 to 3 substituent group.The example of these substituent groups may include halogen atom, cyano, hydroxyl, ammonia
Base, C1-6Alkyl group and C1-6Alkoxy base.Here, the example of halogen atom can be fluorine, chlorine, bromine and iodine.The C1-4Alkyl
Group is such as methyl, ethyl, n-propyl, isopropyl and normal-butyl.C1-4The example of alkoxy base is such as methoxyl group, second
Oxygroup and propoxyl group.Moieties in these substituent groups can be straight chain, branch or cricoid.
Preferably, which is the aryl group selected from phenyl and naphthalene, which can optionally be selected by one to three
From halogen atom, cyano, amino, hydroxyl, C1-6Alkyl group and C1-6The group of alkoxy base replaces or in which the hydrocarbyl group
It is the non-of the alkynyl group selected from the alkyl group of linear chain or branched chain, the kiki alkenyl group of linear chain or branched chain or linear chain or branched chain
Aromatic hydrocarbon radical.
The C1-8Alkyl group and the C3-14Group of naphthene base can optionally be chosen one or more groups in the following group freely
Replace: C1-4Alkyl group, C1-4Alkoxy base, phenyl group and hydroxyl group.C1-4The example of alkyl group may include tool
Have a linear or branched alkyl group group of 1 to 4 carbon atom, for example, methyl, ethyl, n-propyl, isopropyl, normal-butyl, isobutyl group,
Sec-butyl, tert-butyl.C1-4The example of alkoxy base may include the straight or branched alkoxyl base with 1 to 4 carbon atom
Group, such as methoxyl group, ethyoxyl, positive propoxy, isopropoxy, n-butoxy, isobutoxy, sec-butoxy and tert-butoxy.
In formula (I), R1、R2、R3、R4、R5And R6Any two hydrocarbyl group can bond together and and it is connected to it
X, the part X ' or X (CO) X ' constitutes 3 to 12 circle heterocyclic ring rings together.
In formula (I), the hydrocarbyl group or any of the heterocyclic ring can be containing one or more except the part X (CO) X '
Ketone groups except ketone groups.
In addition, the hydrocarbyl group or any of the heterocyclic ring can be former selected from halogen by one or more in formula (I)
The group substitution of son, cyano, amino or hydroxyl.Therefore, in the hydrocarbyl group, some or all hydrogen atoms are by halogen atom (example
Such as fluorine, bromine, chlorine) replace, for example, alkyl group such as chloromethyl, chloropropyl, bromoethyl and trifluoro propyl that halogen replaces, and
Cyano ethyl.
In the case where the hydrocarbyl group or the heterocyclic ring contain alkylidene chain or alkenylene chain, the alkylidene chain or sub- alkene
One or more carbon atoms in base chain can be by oxygen atom, sulphur atom, amide group, ester group, urethane group or NH group
Replacement.In the case where the hydrocarbyl group, which is, has the alkyl group more than a carbon atom, which contains alkylidene.Cause
This, in the case where the hydrocarbyl group is n-hexyl, the alkylidene chain exclude terminal methyl group any carbon atom can by oxygen atom,
Sulphur atom, amide group, ester group, urethane group or the replacement of NH group.Therefore, in the case where one or more oxygen atoms,
Following group is provided as specific example:
Preferred group of compound is that the symmetrical compound of formula (I), wherein X and X ' indicate Ge, R1=R4, R2=R5, and
R3=R6, and R1、R2、R3, it can be identical or different, independently indicate C1-6 alkyl group or phenyl group.
The further preferred group of compound is the symmetrical compound of formula (I), and wherein X and X ' is Si, R1=R4, R2=R5,
And R3=R6, and R1、R2、R3, it can be identical or different, independently indicate C1-6 alkyl group or phenyl group.
The specific example of the compound of formula (I) includes bis- (triphenyl germyl) ketones, bis- (triethyl group germyls)
Ketone and bis- (trimethylgermyl groups) ketones.
The compound of formula (I) can be known compound, can be prepared according to disclosed program.Alternatively, the change of formula (I)
Close object can be prepared according to following figures (Johannesen R et al., J.Chem.Soc.Perkin Trans.1,2000,
2677-2679)。
In draw above formula, X is preferably Ge.
According to preparation method, compound 1 is handled with highly basic at low temperature in aprotic solvent, then anti-with compound 2
It should be to generate compound 3.Reaction temperature can be -20 to -100 DEG C, preferably -40 to -80 DEG C.Reaction time does not have special limit
System, and can be selected from 1 to 24 hour, preferably 2 to 10 hours.Reaction mixture can be by being added water quenching, and product can
It to be extracted into benzene, is washed with water, dry (MgSO4) and evaporate to obtain 3.Crude product can be used to down without further purification
One step.
3 can be handled with highly basic at low temperature in aprotic solvent, then be reacted with compound 4 to generate compound
5.Reaction temperature can be 40 to -80 DEG C, preferably 30 to -20 DEG C.Reaction time is not particularly limited, and can be selected from 1 to 24
Hour, preferably 2 to 10 hours.Reaction mixture can be by being added NH4Cl aqueous solution (10%) quenching, and product can extract
It gets in benzene, is washed with water, dry (MgSO4) and evaporate to obtain 5.Crude product can be used in next step without further purification
Suddenly.
In the case where preparing simple ketone.Compound 5 can be obtained in single step by using the 2 of two equivalents.
Compound 7 used in the present invention can pass through the solution under a nitrogen to compound 5 in dry methylene chloride
In solution of the chlorosulfuric acid in dry methylene chloride is added dropwise to prepare.Mixture stirs 30 minutes, and ring is then added dropwise
Solution of the hexene in dry methylene chloride.Reaction temperature is not particularly limited, and can be selected from 40 to -20 DEG C, preferably 0 DEG C.With
Afterwards, remove the solvent, residue under inert atmosphere (preferably argon gas) through silicagel column elution, use first the pentane of degassing as
Eluant, eluent is then eluted using pentane-diethyl ether 20:1 degased mixture, and the compound of formula (I) can be used as of the invention
The compound of formula (I) separates.
Alternatively, symmetric double (germyl) ketone can also be prepared by the following method: at low temperature (such as at -23 DEG C)
N-BuLi is added into three substitution germanium hydrides such as triphenyl germne and Ethyl formate then is added dropwise (preferably in CaH2On
Fresh distillation).Then, so that reaction mixture is heated up at room temperature, then quenched with aqueous hydrochloric acid solution.Organic phase is separated, is contained
Water phase is extracted three times with diethyl ether.Combined organic phase is dried, filtered and concentrated over sodium sulfate to obtain corresponding bis- (first germanium
Alkyl) methanol product.It is sub- that dicyclohexyl carbon two is continuously added in bis- (germyl) methanol solutions into dry diethyl ether
Amine and pyridinium trifluoroacetate.The flask is carefully then protected in order to avoid light-exposed, and dry DMSO is added dropwise.Stirring continues whole
Night.Supernatant is extracted out through syringe after, and is filtered by 0.2 micrometer syringe formula filter.In the case where light is not present
After filtrate is evaporated in vacuo, required bis- (germyl) ketones are obtained.
Preferably, the compound of formula (I) has the obtained the maximum absorption in 400 nanometers to 900 nanometer ranges.Therefore, may be used
Preferably to be polymerize in 460 to 530 nanometer ranges by using blue light or green light LED light.
The dental composition can contain additional initiator, be selected from Norrish I type initiator and NorrishII type
Initiator.
Norrish I type initiator provides free radical intermediate by the photochemistry cracking of initiator molecule or homolysis.It closes
The example of suitable additional initiator includes salt compounded of iodine, peroxide or diazo compound.Suitable radical polymerization initiator
It can be selected from organic peroxide such as benzoyl peroxide, methyl ethyl ketone peroxide, acetone peroxide and tert-butyl hydroperoxide,
Azo-compound such as azodiisobutyronitrile and 1,1'- azo are bis- (cyclohexanecarbonitrile).
Norrish II type initiator provides free radical intermediate by photochemistry abstraction reaction.Suitable Norrish II
Type initiator can be the combination of sensitized material and reducing material.Sensitized material can be camphorquinone, benzyl, diacetyl, benzyl
Base dimethyl ketal, benzyl diethyl ketal, benzyl two (2- methoxy ethyl) ketal, 4,4'- dimethyl benzyl-dimethyl contracting
Ketone, anthraquinone, 1- chloroanthraquinone, 2- chloroanthraquinone, 1,2 benzae thracene quinone, 1- hydroxy-anthraquione, 1-methylanthracene quinone, 2- ethyl hydrazine, 1- bromine
Anthraquinone, thioxanthones, 2-isopropylthioxanthone, 2- nitro thioxanthones, 2- methyl thioxanthones, 2,4- dimethyl thioxanthone, 2,4- bis-
The chloro- 7- depixol ketone of ethyl thioxanthones, 2,4- diisopropylthioxanthone, 2-, thioxanthones -10,10- dioxide, thioxanthones -
It is 10- oxide, styrax methyl ether, styrax ethylether, benzoin isobutyl propyl ether, benzoin isobutyl butyl ether, benzophenone, double
(4- dimethylaminophenyl) ketone, the bis- diethylamino benzophenone of 4,4'- and the compound including azido group.These
Sensitized material can be independently operated, or be used by mixing the one or more of them.
Tertiary amine may be used as reducing material.The example of tertiary amine includes triethanolamine, 4- dimethylaminobenzoic acid methyl esters, 4-
Dimethyl amino benzoate, dimethylaminoethyl methacrylate or 4- dimethylaminobenzoic acid isopentyl ester.
Other than these reducing materials, organo-metallic compound or sulfinate derivant may be used as reducing material.
Preferably, which is selected from camphorquinone/amine, salt compounded of iodine, sulfonium salt He phosphonium salt.Preferably, the additional initiation
Agent is the compound of following formula:
Wherein group R (it can be identical or different) indicates to indicate hydrocarbyl group with substituted aryl, R ', and Y- is to be selected from
Hexafluoroantimonic anion, trifluoromethyl sulfate radical, hexafluoro-phosphate radical, tetrafluoroborate, hexafluoroarsenate root and tetraphenylborate yin
Ion.
Preferably, R is phenyl group, can be selected from halogen atom, cyano, hydroxyl, amino, C1-6 alkyl by 1 to 3
The substituent group of group and C1-6 alkoxy base replaces.
Preferably, R ' is straight chain, branch or the cricoid alkyl group with 1 to 6 carbon atom, can be by 1 to 3
Selected from halogen atom, cyano, hydroxyl, amino, C1-6Alkyl group and C1-6The substituent group of alkoxy base replaces.
The additional initiator can with the chemical combination object amount of formula (I) to the ratio of additional initiator amount for the 0.1≤(change of formula (I)
Close quality/additional initiator quality of object)≤10 amount uses.
Synergistic effect can be provided using additional initiator, especially in the case where salt compounded of iodine.Preferably salt compounded of iodine is
Diphenyl iodine hexafluorophosphate and (4- aminomethyl phenyl) [4- (2- methyl-propyl) phenyl] iodine hexafluorophosphate (Irgacure
250, available from the commercial product of BASF SE).
Dental composition of the invention can further contain granulated filler and/or solvent.
Suitable granulated filler can be selected from the filler that dental composition is just using at present.The filler should be fine crushing
, and preferably have less than about 100 microns of maximum particle diameter and the average grain diameter less than about 10 microns.The filler can have
There is unimodal or multimodal (such as bimodal) size distribution.
The filler can be inorganic material.It can also be the organic material of crosslinking, not dissolve in polymerizing resin, and appoint
Choosing is filled with inorganic filler.The filler can be radiopaque, radiolucent or non-radiative opaque.Suitable
The example of particulate inorganic filler is natural or synthetic material, such as quartz, nitride such as silicon nitride, derived from for example
The glass of Ce, Sb, Sn, Zr, Sr, Ba and Al, colloidal silicon dioxide, feldspar, borosilicate glass, kaolin, talcum, titanium dioxide
Titanium and zinc glass and submicron silicon dioxide particle such as pyrolytic silicon dioxide.Suitable non-reacted organic filler particles
Example includes filling or unfilled powdered polycarbonate or polyepoxide.Preferably use coupling agent in the surface of the filler particles
Processing is to improve the bonding between filler and matrix.It the use of suitable coupling agent include γ-methacryloxypropyl front three
Oxysilane, γ-Mercaptopropyltriethoxysilane, gamma-amino propyl trimethoxy silicane etc..
The granulated filler can also be the filler obtained by the method for preparing composite filler particles, this method comprises:
(a) graininess with the coating composition containing film forming agent with 1 to 1200 nanometer of median particle (D50)
Filler, forms coat on the surface of the granulated filler, and the coat shows reactivity in the coating layer surface
Group, the reactive group are selected from addition polymerizable groups and gradually grow polymerizable groups, and the particle of coating is consequently formed
Shape filler;Subsequently or simultaneously
(b) granulated filler of agglomeration coating, is not optionally showing reactivity in the presence of other crosslinking agents and optionally
In the presence of other granulated fillers of group, the spherolite (granulation) of the granulated filler of coating is thus provided, wherein
The granulated filler particle and optional other granulated filler particles, the two that the spherolite contains coating pass through at least one
Coating is separated from each other and links together, and thus at least one described coating can pass through reactive group and optional other friendships
Join the reaction crosslinked group obtained of agent to be crosslinked;
(c) it optionally grinds, the spherolite of the granulated filler of classification and/or screening coating;With
(d) optionally further it is crosslinked the spherolite of the granulated filler of the coating;
In order to provide the composite filler particles of the median particle (D50) with 1 to 70 micron, wherein reactive group changes
To react crosslinked group obtained by reactive group and optional other crosslinking agents, and such as EP-A 2 604 247
In further describe as, wherein the granulated filler is the main component based on composite filler particles volume.
The particle that it is 0.1 to 85 weight % based on the composition total weight that dental composition of the invention, which can be preferably comprised,
Shape filler.
Suitable solvent can be selected from water, alcohols such as methanol, ethyl alcohol, propyl alcohol (just, different), butanol (just, different, uncle), ketone
Such as acetone.
The solvent that it is 5 to 75 weight % based on the composition total weight that dental composition of the invention, which can be preferably comprised,.
Dental composition of the invention can further contain stabilizer, pigment, free radical scavenger, polymerization inhibitor,
Reactivity and non-reactive diluent improve the reactive coupling agent of filler, rheology modifier and surfactant.
Suitable stabilizer can be selected from reducing agent such as vitamin C, inorganic sulphide and polysulfide etc..
Dental composition of the invention can be single-component composition.
Embodiment 1
Prepare two (germyl) ketone (DGK)
Use what is provided in [Macromol.Rapid Commun.2010,31,473-478] to be used to synthesize DGK (schema 1)
Program.It is added in the solution in dry THF (3 milliliters) at -23 DEG C to triphenyl germne (1 gram, 3.28 mMs)
N-BuLi (2.5M in hexane, 1.31 milliliters, 3.28 mMs).At -23 DEG C after 15 minutes, Ethyl formate is added dropwise
(in CaH2It is above fresh to distill, 0.58 milliliter, 1.64 mMs), so that reaction mixture was heated up at room temperature through 15 minutes, with
It is quenched afterwards with aqueous hydrochloric acid solution (1M).Organic phase is separated, water phase is extracted three times with diethyl ether.Combined organic phase is over sodium sulfate
It is dried, filtered and concentrated to obtain white powder.Crude reaction mixture1H NMR is analysis shows that bis- (triphenyl germyls)
The ratio between bis- (triphenyl germyl) methyl esters of methanol/formic acid are 3:7.The latter is dissolved in dry THF (13 milliliters) and cooling
To 0 DEG C.Then it is added at one time LiAlH4(0.17 gram, 4.37 mMs), stirring continue 1 hour at 0 DEG C, then use hydrochloric acid
Aqueous solution (1M) quenching.Organic phase is separated, water phase is extracted three times with diethyl ether.Combined organic phase is dried over sodium sulfate, mistake
It filters and is concentrated to obtain colourless oil.The latter is crystallized in the EtOH/ benzol mixture of 9:1 to obtain 0.63 gram (60%) of pair
(triphenyl germyl) methanol.1H NMR(CDCl3,300MHz)δ7.38-7.18(30H);5.38(s,1H);1,5(1H;
OH).13C NMR(CDCl3,75MHz)δ135.5;134.0;130.5;129.0;128.6;128.1;60.3.
Xiang Shuan (triphenyl germyl) methanol (0.25 gram, 3.9 mMs) is in dry diethyl ether (2.3 milliliters)
Be sequentially added in solution dicyclohexylcarbodiimide (0.19 gram, 9.2 mMs) and pyridinium trifluoroacetate (0.09 gram, 4.7 millis
Mole).The flask is carefully then protected in order to avoid light-exposed, and dry DMSO (111 microlitres, 15.7 mMs) are added dropwise.
Reaction mixture switchs to pink, and continues stirred overnight.Then via syringe extraction supernatant and through 0.2 micrometer syringe
The filtering of formula filter.Filtrate is then protected from light evaporation to obtain bis- (triphenyl germyl) first in the form of red solid under vacuum
Ketone.
Photo-polymerization process:
BaF is deposited on different light source irradiations2Laminated film (25 microns of thickness) on pellet: i) by xenon lamp
(Hamamatsu, L8253,150W) is conveyed and is filtered the polychromatic light (incident intensity to select radiation of visible light (λ > 400 nanometer)
Degree: I0≈60mW cm-2) and the ii) laser diode (100mW/cm under 473 nanometers2)。
Such as [Fouassier, J.P.;Lalevée,J.,Photoinitiators for Polymer Synthesis-
Scope, Reactivity, and Efficiency.Wiley-VCH Verlag GmbH&Co.KGaA:2012] described in pass through
Real-time FTIR spectrum method is in about 1640cm-1The differentiation of double bond content is continuously tracked under (Nexus 870, Nicolet).
Trimethylolpropane trimethacrylate (TMPTA) and 1,6 hexanediol diacrylate HDDA (scheme 1) is selected to make
For benchmark monomer.
The free radical polymerization initiating power of DGK:
In visible light exposure, DGK can be attractive photoinitiator, that is to say, that right in the presence of DGK
Different benchmark acrylate monomer (TMPTA;HDDA quite good polymerization situation) is obtained.It is not seen when DGK is not present
Observe polymerization, it is shown that effect (Fig. 1 curve 1vs. curve 2) of the DGK as photoinitiator to free radical polymerization.When use 473
Nanometer under blue light laser diode when, DGK has also effectively caused the polymerization (Fig. 2) of TMPTA.In the presence of salt compounded of iodine
Under, polymerization situation is improved (Fig. 2 curve 2vs. curve 1).
Embodiment 2: photoinitiator of bis- (silicyl) ketone as dental material
Prepare bis- (silicyl) ketone (BSK):
To [Kirschning, A.;Luiken,S.;Migliorini,A.;Loreto,M.A.;Vogt,
M.Synlett2009,3,429-432] described in synthesis BSK program adjusted.It is described in following scheme 2
The synthetic route of optimization.The yield of each step is given in this scenario.
Irradiation source:
Different light is used for irradiation light solidified sample: blue-ray LED (SmartLite Focus- of the center in 477 nanometers
DENTSPLY-~80mW cm-2) or center 532 nanometers laser diode (~100mW cm-2).It is presented in Fig. 3
The emission spectrum of irradiation source.
ESR Spin trapping (ESR-ST) test:
ESR-ST test is carried out using Bruker EMX-plus spectrometer (X- bands of a spectrum).According to [Fouassier, J.P.;
Lalevée,J.,Photoinitiators for Polymer Synthesis-Scope,Reactivity,and
Efficiency.Wiley-VCH Verlag GmbH&Co.KGaA:2012] in be described in detail program, in N2Lower irradiation blue light
LED (the SmartLite Focus from Dentsply) generates free radical and is trapped by phenyl-N- tert-butylnitrone (PBN).Make
ESR spectrum analog is carried out with WINSIM software.
Photopolymerization experiments:
For photopolymerization experiments, condition is given in caption.With refracting films, (said preparation is clipped in photocuring formulation
Between two polypropylene screens) (said preparation with a thickness of 25 microns) be deposited on BaF2To use different light to irradiate on pellet.It is logical
Real-time FTIR spectrum method (JASCO FTIR 4100) is crossed in about 1640cm-1Lower continuous tracking Bis-GMA/TEGDMA blend
Methacrylate double bond content differentiation [Tehfe, M.A.;Lalevée,J.;Telitel,S.;Sun,J.F.;Zhao,
J.Z.;Graff,B.;Morlet-Savary,F.;Fouassier,J.P.Polymer 2012,53,2803-2808.Tehfe,
M.A.;Lalevée,J.;Morlet-Savary,F.;Graff,B.;Blanchard,N.;Fouassier,
J.P.Macromolecules 2012,45,1746-1752]。
As a result:
A) the I type photoinitiator behavior of BSK:
BSK is characterized in that the good optical absorption property in 300-600 nanometer range, and can be considered as the spectrum model
Enclose interior potential photoinitiator.It finds to absorb maximum value (Fig. 4) in~530 nanometers in acetonitrile.
In SmartLite Focus irradiation, the bleaching (Fig. 5) of BSK solution is found.Which show the compounds visible
Light sensitivity when light irradiates.
Electron spin resonance (Spin trapping mode) test is carried out to study chemism of the BSK when irradiating visible light.
Two free radicals (Fig. 5) are generated it is interesting that irradiating by light.The hyperfine coupling constant of these free radicals can be attributed to logical
Cross the silicyl free radical (a of C-Si fission process generationN=14.7G;aH=5.8G) and acyl group free radical (aN=13.6G;
aH=1.8G) [Fouassier, J.P.;Lalevée,J.,Photoinitiators for Polymer Synthesis-
Scope, Reactivity, and Efficiency.Wiley-VCH Verlag GmbH&Co.KGaA:2012].Subsequent knot
Fruit shows specifically the I type photoinitiator behavior of BSK, it can is generated certainly by the homolysis photodestruciton process of these derivatives
By base (scheme 3).,
R9Si-CO-SiR3→R3Si·+R3Si-C ()=O
R3Si-C ()=O → R3(double bond, such as PBN is not present) in Si+CO
The chemism of scheme 3.BSK: the cracking of C-Si key when irradiating SmartLite Focus
B) BSK in the presence of additive (such as DPI):
BSK can also be used in the presence of additive (amine, salt compounded of iodine).For example, finding BSK's in the presence of DPI
Photodegradation be not present DPI when compared with much faster;Which show the strong phases of the BSK/DPI when irradiating SmartLite Focus
Interaction.In the test of ESR Spin trapping, the formation for being clearly observed aryl radical (passes through aN=14.2G;aH=2.2G
To characterize).It is decomposed according to scheme 4 it is expected that being sensitized DPI by BSK.
The chemism of scheme 4.BSK/DPI system: highly reactive aryl radical is formed
It is noted that the good bleaching of discovery BSK/DPI solution;This can be used for synthesizing colourless polymer.
C) the free radical polymerization initiating power of BSK:
Under visible light, BSK can be attractive photoinitiator.Polymerization is not observed when BSK is not present.In
In the presence of BSK, observe that final conversion ratio is~10% faint polymerization after irradiation in 300 seconds.The polymerization shows that BSK makees
For the effect of the photoinitiator of free radical polymerization.It is consistent with the faster photodegradation (referring to fig. 4) of BSK in the presence of DPI;BSK/
DPI combination is found to be visible light (blue light and green light;Very effective initiation system under Fig. 6).Effect of the amine as additive
For concentration used herein still very weak (Fig. 8).Relatively low additive is also obtained using N- vinyl carbazole to imitate
Fruit.
3-AG 19-56-2 of embodiment
By 5.0000 grams of (9.7656 mMs) 2,2- bis- [4- [2- hydroxy-3-methyl acryloxy propoxyl group) phenyl]
Propane (Bis-GMA), 1.1983 grams of (4.1853 mMs) triethylene glycol dimethacrylate (TGDMA), 0.1774 gram
(0.2790 mM) bis- (triphenyl germyl) ketone (TPG) and 0.0047 gram of (0.0212 mM) 2,6- di-t-butyl pair
Cresols equably mixes.It is summarised in table 1 with the polymerization enthalpy that DSC 7 (Perkin Elmer) is measured.
1-AG 19-27-1 of comparative example
By 5.0000 grams of (9.7656 mMs) 2,2- bis- [4- [2- hydroxy-3-methyl acryloxy propoxyl group) phenyl]
Propane (Bis-GMA), 1.1983 grams of (4.1853 mMs) triethylene glycol dimethacrylate (TGDMA), 0.0232 gram
(0.1395 mM) camphorquinone (CQ), 0.0100 gram of (0.0517 mM) 4- (dimethylamino) benzoic acid ethyl ester
(DMABE) it is equably mixed with 0.0058 gram of (0.0216 mM) DBPC 2,6 ditertiary butyl p cresol.With 7 (Perkin of DSC
Elmer the polymerization enthalpy) measured is summarised in table 1.
The polymerization enthalpy of table 1:Bis-GMA/TGDMA (70/30w/w) composition
ΔRH[kJ/mol] | ||
AG 19-56-2 | Embodiment 3 | -46.5±1.6 |
AG 19-27-1 | Comparative example 1 | -42.8±2.1 |
The dsc measurement shows the initiator (embodiment compared with CQ/ amine system (comparative example 1), based on germne
1) polymerization enthalpy is high by 22%.
Application Example 1-
By 39.980 grams of (78.086 mMs) 2,2- bis- [4- [2- hydroxy-3-methyl acryloxy propoxyl group) phenyl]
Propane (Bis-GMA), 24.987 grams of (87.271 mMs) diethylene glycol dimethacrylate (TGDMA), 34.982 grams
(74.342 mMs) 2,7,7,9,15- pentamethyl -4,13,14- dioxa -5,12- diaza-hexadecane -1,16- diyl two
Methacrylate (UDMA), 0.050 gram of (0.228 mM) DBPC 2,6 ditertiary butyl p cresol (BHT) and 3.048 gram (4.794
MM) the liquid methyl acrylate mixture and 278.612 grams of barium aluminium silicon of bis- (triphenyl germyl) ketone (TPG) composition
Silicate glass mixing.Engineering properties compressive strength (CS) and bending strength (FS) are summarised in table 2.
2-AG 19-17-1 of comparative example
By 39.980 grams of (78.086 mMs) 2,2- bis- [4- [2- hydroxy-3-methyl acryloxy propoxyl group) phenyl]
Propane (Bis-GMA), 24.987 grams of (87.271 mMs) triethylene glycol dimethacrylate (TGDMA), 34.982 grams
(74.342 mMs) 2,7,7,9,15- pentamethyl -4,13,14- dioxa -5,12- diaza-hexadecane -1,16- diyl two
Methacrylate (UDMA), 0.050 gram of (0.228 mM) DBPC 2,6 ditertiary butyl p cresol (BHT), 0.398 gram (2.397
MM) camphorquinone (CQ) and 0.556 gram of (2.876 mMs) 4- (dimethylamino) benzoic acid ethyl ester (DMABE) composition
Liquid methyl acrylate mixture mixed with 272.950 grams of barium alumina silicate glasses.Engineering properties compressive strength (CS) and
Bending strength (FS) is summarised in table 2.
Table 2: the engineering properties of composite material
Claims (12)
1. a kind of photo-curable dental composition, includes:
(a) one or more free radical polymerizable monomers,
(b) chemical combination based on the lower formula (I) that free radical polymerizable monomer total weight in the composition is 0.1 to 7.0 weight %
Object:
R1R2R3X(CO)X’R4R5R6
(I)
Wherein
X and X ' are identical, independently indicate Si or Ge,
R1、R2、R3、R4、R5And R6, it can be identical or different, independently indicate that hydrocarbyl group, the hydrocarbyl group are with 1 to 6
The alkyl group of carbon atom or aryl group with 6 to 10 carbon atoms, thus R1、R2、R3、R4、R5And R6Middle any two
Hydrocarbyl group can bond together and and X, X connected to it ' or the part X (CO) X ' constitute 3 together to 12- circle heterocyclic ring ring,
Thus any of the hydrocarbyl group or heterocyclic ring can be with
Containing one or more ketone groups in addition to the ketone groups of the part X (CO) X ', or
Replaced by one or more groups selected from halogen atom, cyano, amino or hydroxyl, and
In the case where hydrocarbyl group or heterocyclic ring contain alkylidene chain or alkenylene chain, in the alkylidene chain or alkenylene chain
One or more carbon atoms can be replaced by oxygen atom, sulphur atom, amide groups, ester group, urethane groups or NH group, and
(c) granulated filler and/or solvent, and
Additional initiator comprising being selected from salt compounded of iodine.
2. photo-curable dental composition as described in claim 1, it includes based on free redical polymerization in the composition
Total monomer weight is the compound of the formula (I) less than 2.5 weight %.
3. photo-curable dental composition as claimed in claim 1 or 2, wherein the compound of formula (I) has at 400 nanometers extremely
Obtained the maximum absorption in 900 nanometer ranges.
4. photo-curable dental composition as claimed in claim 1 or 2, wherein the hydrocarbyl group is selected from phenyl and naphthalene
Aromatic hydrocarbon radical, the group optionally can be selected from halogen atom, cyano, amino, hydroxyl, C by one to three1-6Alkyl group
And C1-6The group of alkoxy replaces or in which the hydrocarbyl group is non-aromatic hydrocarbon radical, and the non-aromatic hydrocarbons group is selected from straight chain
Or the alkyl group of branch.
5. photo-curable dental composition as claimed in claim 1 or 2, wherein the free radical polymerizable monomer (a) is respective
Containing one or two can free crowd group.
6. photo-curable dental composition as claimed in claim 1 or 2, further includes based on the composition total weight
For the solvent of 5 to 75 weight %.
7. photo-curable dental composition as claimed in claim 1 or 2, further includes based on the composition total weight
For the granulated filler of 0.1 to 85 weight %.
8. photo-curable dental composition as claimed in claim 1 or 2, it includes the free redical polymerizations with acidic-group
Monomer.
9. photo-curable dental composition as claimed in claim 1 or 2, compound selected from dental adhesive composition, dentistry
Material, resin modified dental cement and fissure sealant.
10. photo-curable dental composition as claimed in claim 1 or 2 is single set composition.
11. photo-curable dental composition as described in claim 1, wherein the additional initiator is diphenyl iodine hexafluoro
Phosphate.
12. the compound of lower formula (I) is used to prepare the photo-curable dental composition as defined by any one of claims 1 to 11
The purposes of object:
R1R2R3Ge(CO)GeR4R5R6
(I)
Wherein
R1、R2、R3、R4、R5And R6, it can be identical or different, independently indicate that hydrocarbyl group, the hydrocarbyl group are with 1 to 6
The alkyl group of carbon atom or aryl group with 6 to 10 carbon atoms, thus R1、R2、R3、R4、R5And R6Middle any two
Hydrocarbyl group can bond together and and the part Ge connected to it or Ge (CO) Ge constitute 3 together to 12- circle heterocyclic ring ring,
Thus any of the hydrocarbyl group or heterocyclic ring can be with
Containing one or more ketone groups in addition to the ketone groups of the part Ge (CO) Ge, or
Replaced by one or more groups selected from halogen atom, cyano, amino or hydroxyl, and
In the case where hydrocarbyl group or heterocyclic ring contain alkylidene chain or alkenylene chain, in the alkylidene chain or alkenylene chain
One or more carbon atoms can be replaced by oxygen atom, sulphur atom, amide groups, ester group, urethane groups or NH group.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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EP13005318.4 | 2013-11-11 | ||
EP20130005318 EP2870956A1 (en) | 2013-11-11 | 2013-11-11 | Dental composition |
PCT/EP2014/074209 WO2015067815A1 (en) | 2013-11-11 | 2014-11-10 | Dental composition |
Publications (2)
Publication Number | Publication Date |
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CN106102690A CN106102690A (en) | 2016-11-09 |
CN106102690B true CN106102690B (en) | 2019-12-03 |
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CN201480071750.6A Expired - Fee Related CN106102690B (en) | 2013-11-11 | 2014-11-10 | Dental composition |
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EP (2) | EP2870956A1 (en) |
JP (1) | JP2016536319A (en) |
CN (1) | CN106102690B (en) |
CA (1) | CA2930267A1 (en) |
HK (1) | HK1225306A1 (en) |
WO (1) | WO2015067815A1 (en) |
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EP3150641B1 (en) | 2015-09-29 | 2018-08-29 | Ivoclar Vivadent AG | Acylgermanium photo initiators and method for their preparation |
EP3246001B1 (en) * | 2016-05-19 | 2023-03-29 | DENTSPLY DETREY GmbH | Dental composition |
EP3231413A1 (en) * | 2016-04-11 | 2017-10-18 | DENTSPLY DETREY GmbH | Dental composition |
EP3293215B1 (en) | 2016-09-07 | 2020-10-21 | Ivoclar Vivadent AG | Polymerizable compositions having acyl tin photoinitiators |
EP3902878A1 (en) * | 2018-12-28 | 2021-11-03 | IGM Resins Italia S.r.l. | Photoinitiators |
EP4257592A1 (en) | 2022-04-08 | 2023-10-11 | Evonik Operations GmbH | Bisacyl digermanium compounds, their preparation and their use as photoinitiator for radical polymerization |
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EP2604247A1 (en) | 2011-12-15 | 2013-06-19 | Dentsply DeTrey GmbH | Composite filler particles and process for the preparation thereof |
-
2013
- 2013-11-11 EP EP20130005318 patent/EP2870956A1/en not_active Withdrawn
-
2014
- 2014-11-10 EP EP14796107.2A patent/EP3068363B1/en active Active
- 2014-11-10 CN CN201480071750.6A patent/CN106102690B/en not_active Expired - Fee Related
- 2014-11-10 WO PCT/EP2014/074209 patent/WO2015067815A1/en active Application Filing
- 2014-11-10 CA CA2930267A patent/CA2930267A1/en not_active Abandoned
- 2014-11-10 JP JP2016530008A patent/JP2016536319A/en active Pending
-
2016
- 2016-12-01 HK HK16113704A patent/HK1225306A1/en not_active IP Right Cessation
Non-Patent Citations (3)
Title |
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Benzoyl germanium derivatives as novel visible light photoinitiators for dental materials;Norbert Mosznerd等;《dental materials》;20080701;第57-62页 * |
Bis(germyl)ketones: Toward a New Class of Type I Photoinitiating Systems Sensitive Above 500 nm ?;Mahamad-Ali Tehfe等;《Macromolecular Rapid Communications》;20101231;第901-907页 * |
New Photocleavable Structures, 4aAcylgermane-Based Photoinitiator for Visible Light Curing;Beate Ganster等;《Macromolecular Rapid Communications》;20080102;第473-478页 * |
Also Published As
Publication number | Publication date |
---|---|
CN106102690A (en) | 2016-11-09 |
EP3068363A1 (en) | 2016-09-21 |
CA2930267A1 (en) | 2015-05-14 |
WO2015067815A1 (en) | 2015-05-14 |
EP3068363B1 (en) | 2020-08-05 |
HK1225306A1 (en) | 2017-09-08 |
EP2870956A1 (en) | 2015-05-13 |
JP2016536319A (en) | 2016-11-24 |
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